مرکز منطقه ای اطلاع رساني علوم و فناوري - Uniaxial anisotropy by "radiomagnetic" treatment; controlling factors in a new process

Abstract :

A new process-an electron-"radiomagnetic" treatment-for obtaining high-remanence, low-coercive-force loops in magnetic alloys was recently announced. As an example, 2-MeV electron irradiation of 6-mil-thick ring laminations of polycrystalline 5-80 Mo Permalloy with 10¹⁷e/cm²in an applied circumferential magnetic field of 0.2 Oe at $\\sim100\\deg$ C produced record highs in remanence (∼6700 G) for this material. Additional studies of this process have been made to determine some of the controlling factors and the range of application. In particular, the effects of the dose (number of e/cm²) and of the preirradiation magnetic properties were examined. The results show that: 1) for a given dose of $1.1 \\times 10^{17}$ 2-MeV e/cm², the relative change in remanence ( $\\Delta B_{r}/B_{r}$ ) is always positive, ranging from 10 to 50 percent, but varies inversely with the preirradiation value of remanence (Br); 2) for the same dose, the relative change in coercive force ( $\\Delta H_{c}/H_{c}$ ) also depends upon the preirradiation value of remanence, but in a different way. For $B_{r} < 5000$ G, $\\Delta H_{c}/H_{c}$ is either negative or zero. For $B_{r} > 5000$ G, $\\Delta H_{c}/H_{c}$ is positive, ranging from 20 to 150 percent, and increases linearly with $B_{r}; 3$ ) if the dose is reduced to $\\sim0.8 \\times 10^{17}$ e/cm², then $\\Delta H_{c}/H_{c}$ is reduced to a tolerable level (∼10 percent) with no significant sacrifice in the positive gain in remanence and rectangularity. Hence, there are optimum dose ranges in the "radio-magnetic" treatments of alloys, where significant gains in remanence may be obtained without appreciable increases in coercive force.